Synthesis of Aragonite-Type of Calcium Carbonate from Calcined Scallop Shell-With amorphous calcium carbonate as an intermediate

Sasaki K.; Hongo M.

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Synthesis of Aragonite-Type of Calcium Carbonate from Calcined Scallop Shell-With amorphous calcium carbonate as an intermediate

机译：用煅烧扇贝壳碳酸钙的合成碳酸钙 - 用无定形碳酸钙作为中间体

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Aragonite type of calcium carbonate was synthesized via amorphous calcium carbonate from calcined scallop shell. The effect of aging and Mg~(2+) ion addition on polymorphism of the product was determined, and the mechanism of formation of aragonite is discussed. Aging of amorphous calcium carbonate first led to the formation of calcite and unstable vaterite, and the vaterite was then converted to aragonite with the longer aging. The addition of Mg~(2+) ions further enhanced the formation of aragonite. The elemental analysis by atomic absorption spectrometry and the characterization of the products by EPMA and XRD showed that Mg~(2+) ions were preferentially adsorbed on the calcite nucleus, then involved in the growing calcite (not needlelike crystal like aragonite). This adsorption inhibited the growth of calcite, leading to aragonite forma-tion.

机译：通过来自煅烧的扇贝壳的无定形碳酸钙合成了金属石型碳酸钙。测定老化和Mg〜（2+）离子加成对产物多态性的影响，讨论了制剂形成机制。无定形碳酸钙的老化首先导致方解石和不稳定的游泳池的形成，然后转化为较长的老化的游岩。添加Mg〜（2+）离子进一步增强了树脂的形成。通过原子吸收光谱法的元素分析和EPMA和XRD的产品表征显示，Mg〜（2+）离子优先吸附在方解石核上，然后参与生长的方解石（不是花晶如属晶体）。这种吸附抑制了方解石的生长，导致树脂碎石。

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《資源と素材: 资源·素材学会志》 |1997年第12期|共4页
作者
Sasaki K.; Hongo M.;
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正文语种 jpn
中图分类自然资源学;
关键词
calcined scallop shell; aragonite; calcite; Mg~(2+) ions; amorphous calcium carbonate;

机译：煅烧扇贝壳;化石;方解石;Mg〜（2+）离子;无定形碳酸钙;

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1. Synthesis of Aragonite-Type of Calcium Carbonate from Calcined Scallop Shell-With amorphous calcium carbonate as an intermediate [J] . Sasaki K., Hongo M. 資源と素材: 资源·素材学会志 . 1997,第12期

机译：扇贝壳煅烧-无定形碳酸钙合成文石型碳酸钙
2. Synthesis of Aragonite-type of Calcium Carbonate from Calcined Scallop Shell (2nd Report)—With carbonates of aragonite-structure as seeds [J] . K.Sasaki, M.Hongo 資源と素材: 资源·素材学会志 . 1998,第10期

机译：煅烧扇贝壳合成文石型碳酸钙（第二次报告）—以文石结构的碳酸盐为种子
3. Synthesis of Aragonite-type of Calcium Carbonate from Calcined Scallop Shell (2nd Report)—With carbonates of aragonite-structure as seeds [J] . K.Sasaki, M.Hongo 資源と素材: 资源·素材学会志 . 1998,第10期

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4. Synthesis of β-tricalcalcium phosphate Block by Wet Milling Method of Calcium Hydrogen Phosphate Dihydrate and Calcium Carbonate [C] . A. Nurazreena, K. S. Lau International Conference on X-Rays Related Techniques in Research Industry . 2015

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5. Biomolecular Controls on Calcium Carbonate Formation by Classical and Amorphous Pathways: Insights from Measurements of Nucleation Rates and Isotope Tracers [D] . Giuffre, Anthony Joseph. 2015

机译：经典和无定形途径碳酸钙形成的生物分子控制：从核切割率和同位素示踪剂测量的见解
6. Calcium Supplement by Tetracycline guided amorphous Calcium Carbonate potentiates Osteoblast promotion for Synergetic Osteoporosis Therapy [O] . Jianwei Wang, Shan Tao, Xiangyu Jin, 2020

机译：四环素的钙补充剂引导无定形碳酸钙增强骨质细胞促进促进协同骨质疏松症治疗
7. Recycling. Synthesis of Aragonite-Type of Calcium Carbonate from Calcined Scallop Shell. With amorphous calcium carbonate as an intermediate. [O] . Keiko SASAKI, Masaru HONGO, Masami TSUNEKAWA 1997

机译：回收。煅烧扇贝壳的碳酸钙的合成。用无定形碳酸钙作为中间体。

Synthesis of Aragonite-Type of Calcium Carbonate from Calcined Scallop Shell-With amorphous calcium carbonate as an intermediate

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